CN114311706B - Label rubberizing device and rubberizing method - Google Patents

Abstract

The application discloses a label rubberizing device and a rubberizing method, which relate to the technical field of auto parts and comprise a bottom plate, wherein a placing groove for placing labels is formed in the bottom plate, an installation seat is arranged on the bottom plate in a sliding mode, a compression roller is arranged on the installation seat in a rotating mode, a positioning column is arranged on the bottom plate in a sliding mode, an elastic piece for driving the positioning column to move upwards is arranged on the bottom plate, the positioning column extends out of the surface of the bottom plate, and the placing groove and the positioning column are both located on a moving path of the compression roller. The application has the effect of being capable of conveniently rolling the label.

Description

Label rubberizing device and rubberizing method

Technical Field

The application relates to the technical field of automobile accessory manufacturing, in particular to a label rubberizing device and a rubberizing method.

Background

The ACC label, namely the self-adaptive cruise control label, is mainly an important functional part for realizing the self-adaptive cruise system of the automobile, mainly realizes the penetration of radar waves and is used as a Logo decoration of the automobile body, so that the functional and appearance decoration requirements of the product are relatively high.

The sign is usually including the base and install the apron on the base, and the surface of apron is provided with the pattern of car logo, and one side that the base deviates from the apron is used for setting up the gluing layer, and the gluing layer is the double faced adhesive tape structure usually, and one side of double faced adhesive tape is provided with the pad pasting, and after attaching the double faced adhesive tape on the base, tear off the pad pasting on its surface again, can paste the sign on the automobile body.

In view of the above-mentioned related art, the inventors consider that when the adhesive layer is adhered to the base, there is generally air bubbles between the adhesive layer and the base, and the stability of the connection between the adhesive layer and the base is easily affected.

Disclosure of Invention

In a first aspect, the present application provides a label rubberizing device, which adopts the following technical scheme:

the utility model provides a sign rubberizing device, includes the bottom plate, set up the standing groove that is used for placing the sign on the bottom plate, the slip is provided with the mount pad on the bottom plate, it is provided with the compression roller to rotate on the mount pad, the bottom plate slides from top to bottom and is provided with the reference column, be provided with on the bottom plate and be used for driving the reference column upward movement so that the reference column has the elastic component that extends the bottom plate surface, standing groove and reference column all are located the travel path of compression roller.

Through adopting above-mentioned technical scheme, the sign is placed on the standing groove, then with gluing layer attached on the bottom surface of sign, then promote the mount pad and slide, can make the compression roller press from the surface of gluing layer to extrude away the bubble etc. between sign and the gluing layer, improve the joint strength between gluing layer and the sign. Install gliding reference column from top to bottom on the bottom plate and can drive the reference column upper end and extend the bottom plate surface under the effect of elastic component, can paste the spacer on the pad pasting on gluing layer surface, the reference column can pass the spacer to make the compression roller when extrudeing the sign, the reference column can fix a position gluing layer, reduces the possibility that takes place the skew. The reference column slides from top to bottom in the bottom plate upper surface and has the part that extends the bottom plate surface under the effect of elastic component for the compression roller can extrude the reference column downwards in the motion process, thereby makes the reference column not influence the motion of compression roller, and the reference column has the part that surpasss the bottom plate surface, and the gluing layer can be fixed a position through the locating plate, makes the compression roller when extrudeing the gluing layer, and the gluing layer is difficult to take place the skew, thereby improves the planarization of gluing layer attached on the sign.

Optionally, the mounting groove has been seted up on the bottom plate, be provided with inside hollow installation section of thick bamboo in the mounting groove, the groove bottom of installation groove has been seted up and has been used for holding the groove of stepping down of installation section of thick bamboo, the reference column slides from top to bottom in installation section of thick bamboo and the elastic component is installed between the bottom surface under installation section of thick bamboo and the reference column.

Through adopting above-mentioned technical scheme, reference column slidable mounting is in the installation section of thick bamboo, and the elastic component is installed between the bottom surface of reference column and installation section of thick bamboo, and the elastic component is compressed when the reference column slides downwards to can make the reference column shrink in the installation section of thick bamboo with the reference column downwardly extrusion when making the compression roller motion, both can make the reference column upward movement under the effect of elastic component behind the compression roller through the reference column, thereby can fix a position the gluing layer through the paster all the time.

Optionally, the mount pad includes the fixed block and installs in the extension piece of fixed block both ends lateral wall, the compression roller rotates between two extension pieces.

Through adopting above-mentioned technical scheme, provide compression roller pivoted space between two extension pieces for the compression roller rotates to be connected between two extension pieces, and convenient operation also makes things convenient for the installation of compression roller.

Optionally, the bottom plate is provided with the slide rail in the both sides position department of standing groove, mount pad sliding connection is on the slide rail.

Through adopting above-mentioned technical scheme, the mount pad slides on the slide rail for the mount pad slides stably and conveniently slides.

Optionally, a buckling groove communicated with the placing groove is formed in the upper surface of the bottom plate.

Through adopting above-mentioned technical scheme, the sign is placed behind the standing groove, conveniently takes out the sign from the standing groove through detaining the silo.

Optionally, the fixed block is inside hollow structure, the central point of bottom surface puts the rotation in the fixed block and is provided with the articulated lever, the articulated lever is provided with two and extends to the both ends direction of fixed block respectively, the lower surface rotation of articulated lever is provided with a plurality of balls, the hollow groove that is used for supplying the ball to extend the fixed block lower surface is offered to the fixed block bottom surface, be provided with the linkage between compression roller and the articulated lever, when the sliding seat slides, the linkage is used for driving the articulated lever motion and makes the tip structure that the articulated lever encloses towards the slip direction of sliding seat.

Through adopting above-mentioned technical scheme, articulated have the pin joint pole in the fixed block to the lower surface of pin joint pole rotates and is provided with a plurality of balls, and the ball passes through fretwork groove downwardly extending, makes the fixed block also can extrude in the surface of gluing layer at gliding in-process ball, thereby further extrudees the surface of gluing layer, and can drive the slip direction of the pointed end orientation fixed block that two pin joint poles formed through the linkage at compression roller pivoted in-process, thereby make the ball can extrude the bubble in the gluing layer to both sides, thereby help extruding the bubble between gluing layer and the sign more.

Optionally, the extension piece is inside hollow structure and is linked together with the inside of fixed block, the linkage piece is including sliding the slide bar that sets up in the fixed block both ends, the slip direction of slide bar is on a parallel with the slip direction of sliding seat, all set up the waist type groove that extends along the length direction of articulated lever on the articulated lever, the slide bar is equipped with upwards extends and wears to establish the spacing post in waist type groove, the both ends of compression roller are provided with the pivot, the linkage piece still includes the rotation wheel that coaxially sets up in the pivot outer wall, be provided with transmission structure between rotation wheel and the slide bar, can drive the slide bar through transmission structure when the compression roller rotates and slide.

Through adopting above-mentioned technical scheme, can electronic rotation wheel synchronous rotation when the compression roller rotates, under transmission structure's effect, can drive the slide bar and slide, the waist type groove is worn to establish by the spacing post, and the articulated lever articulates on the fixed block inner bottom surface, and the waist type groove provides the space of spacing post motion, so the slide bar can rotate through spacing post drive articulated lever at gliding in-process, consequently two articulated levers can form sharp end structure for the ball extrudees can be with bubble to both sides extrusion when gluing the layer surface.

Optionally, the transmission structure is including setting up in the actuating lever of rotor outer wall, the actuating lever evenly is provided with a plurality ofly along the circumference of rotor, the transmission structure is still including sliding the conflict piece that sets up in the slide bar upper surface, the conflict piece is including butt face and the inclined plane towards rotor, the inclined plane is facing away from the direction slope downward setting of rotor, the slide bar is provided with and is used for providing the conflict piece and has the power spring of upward movement trend, install reset spring between the one end that the dwang was kept away from to the slide bar and the inner wall of fixed block, reset spring is when natural state, the tip orientation that two articulated bars enclose deviates from the direction of compression roller.

Through adopting above-mentioned technical scheme, can drive the tip of actuating lever under actuating spring's elasticity effect have the part that surpasss the rotation wheel surface, during the compression roller rotates, the tip butt of actuating lever is on the butt face, thereby drive the slide bar slides, make actuating spring compressed, the actuating lever is provided with a plurality of continuous butt of actuating lever on the butt face, thereby keep actuating spring compressed state, during compression roller counter-rotating, the actuating lever can the butt on the inclined plane, thereby make the slide bar slide to the direction of keeping away from actuating spring, thereby make the articulated lever begin to rotate and the tip direction of enclosing can change, thereby improve the extrusion effect to the gluing layer.

In a second aspect, the present application provides a method for rubberizing a label, which adopts the following technical scheme:

a rubberizing method of the label, use the rubberizing device above-mentioned, including the following step;

s1, sticking a locating piece on the surface of a film on the surface of an adhesive layer, and then placing the label in a placing groove of a bottom plate with the bottom surface of the label facing upwards;

s2, sticking the adhesive layer on the bottom surface of the label, and enabling the positioning column to penetrate through the positioning sheet;

s3, pushing the mounting seat to slide on the bottom plate, and driving the press roller to extrude on the surface of the viscose layer.

Through adopting above-mentioned technical scheme, when attaching the gluing layer on the sign, place the sign in the standing groove earlier, then with one side adhesion of gluing layer on the sign again, then pass the reference column and establish the spacer for the gluing layer is difficult to in sign surface slip when the motion by the compression roller, and the sliding seat is made to slide back and forth, makes the compression roller extrude the gluing layer several times can.

In summary, the present application includes at least one of the following beneficial effects:

1. the label is placed on the bottom plate, then the adhesive layer is attached, the surface of the adhesive layer can be extruded through the sliding mounting seat, and bubbles between the adhesive layer and the label are extruded;

2. under the limiting action of the locating plate and the locating column, the possibility of sliding of the adhesive layer can be reduced.

Drawings

FIG. 1 is a schematic view of a first embodiment of the present application;

FIG. 2 is an exploded view of a first embodiment of the present application when a sign is placed;

FIG. 3 is an exploded view of a positioning column according to a first embodiment of the present application;

FIG. 4 is a schematic view showing the internal structure of a fixing block according to the first embodiment of the present application;

FIG. 5 is a schematic illustration of the connection of the hinge rod and the pressure roller in the first embodiment;

FIG. 6 is a schematic diagram showing the connection of a slide bar in accordance with the first embodiment;

fig. 7 is an exploded view of the interference block in the first embodiment.

Reference numerals illustrate: 1. a sign plate; 2. an adhesive layer; 3. a mounting base; 31. a fixed block; 32. an extension block; 4. a press roller; 5. positioning columns; 6. an elastic member; 7. a mounting groove; 8. a mounting cylinder; 9. a relief groove; 10. a slide rail; 11. a buckling groove; 12. a hinge rod; 13. a ball; 14. a hollow groove; 15. a linkage member; 151. a slide bar; 152. a rotating wheel; 16. a waist-shaped groove; 17. a limit column; 18. a rotating shaft; 191. a driving rod; 192. a collision block; 1921. an abutment surface; 1922. an inclined surface; 20. a power spring; 21. a return spring; 22. a mounting block; 23. a placement groove; 24. a positioning sheet; 25. slotting; 26. a bottom plate.

Detailed Description

The application is described in further detail below with reference to fig. 1-7.

Example 1;

the embodiment of the application discloses a label rubberizing device. Referring to fig. 1 and 2, the label applicator includes a base plate 26, and the base plate 26 has the mounting base 3 slidably mounted thereon. The bottom plate 26 is further provided with a placement groove 23, the placement groove 23 is used for placing the label 1, and the size of the placement groove 23 is matched with the size of the label 1, so that the label 1 is not easy to slide after being placed in the placement groove 23. The adhesive layer 2 is usually required to be attached to the bottom surface of the label 1, the adhesive layer 2 is of a double-sided adhesive structure, one side of the adhesive layer 2 is adhered to the label 1, the other side of the adhesive layer 2 is a film, and the label 1 can be adhered to a vehicle body by tearing off the film.

Referring to fig. 1 and 2, the mounting base 3 includes a fixing block 31 and extension blocks 32 mounted to both side walls of the fixing block 31, the fixing block 31 is slidably mounted on the upper surface of the base plate 26, and the extension blocks 32 are fixed to the same side wall of the fixing block 31. A press roller 4 is rotatably mounted between the two extension blocks 32, and the press roller 4 can be rotatably connected by means of a bearing or the like. Because there is bubble easily between the adhesive layer 2 and the sign 1 when the adhesive layer 2 is attached to the sign 1, the connection strength between the surface and the adhesive layer 2 is easily affected. The position that standing groove 23 offered is located the motion path of compression roller 4, after sign 1 placed in standing groove 23 and after sign 1 surface adhesion gluing layer 2, sliding mounting seat 3 can make compression roller 4 extrude in gluing layer 2's surface to can reduce the bubble between gluing layer 2 and the sign 1.

Referring to fig. 2, in order to facilitate the sliding of the mounting seat 3, two parallel sliding rails 10 are fixed on the upper surface of the bottom plate 26, the placement groove 23 is located between the two sliding rails 10, and the lower surface of the fixing block 31 slides on the two sliding rails 10, thereby realizing the sliding of the mounting seat 3. The cross section of the slide rail 10 may be a special-shaped structure, such as a dovetail structure or a T-shaped structure, and the lower surface of the fixing block 31 is provided with a slide groove for the slide rail 10 to pass through, and the slide groove is matched with the slide rail 10, so that the fixing block 31 can stably slide on the slide rail 10. To facilitate sliding of the push mount 3, a handle may be mounted between the two extension blocks 32.

Referring to fig. 2 and 3, the upper surface of the bottom plate 26 is slidably mounted with the positioning column 5, and the positioning column 5 slides in the vertical direction. The base plate 26 is mounted with an elastic member 6 for providing the positioning column 5 with a tendency to move upward such that the upper end of the positioning column 5 has a portion beyond the surface of the base plate 26, and the elastic member 6 is compressed when the positioning column 5 is pressed to move downward. The positioning columns 5 are arranged on two sides of one end of the placing groove 23, and the positioning columns 5 are symmetrically arranged in the sliding direction of the sliding seat. The adhesive film of the adhesive layer 2 can be adhered or integrally formed with the positioning sheet 24, and after the adhesive layer 2 is adhered to the label 1, the positioning column 5 penetrates through the positioning sheet 24, so that when the press roller 4 presses the adhesive layer 2, the adhesive layer 2 is not easy to deviate under the action of the positioning sheet 24 and the positioning column 5.

Referring to fig. 1 and 3, the upper surface of the bottom plate 26 is provided with a mounting groove 7, a mounting block 22 is mounted in the mounting groove 7, and after the mounting block 22 is mounted in the mounting groove 7, the upper surface of the mounting block 22 is not higher than the upper surface of the bottom plate 26. The bottom surface of the mounting groove 7 is provided with a yielding groove 9, and the lower surface of the mounting block 22 is fixedly provided with a mounting cylinder 8 extending into the yielding groove 9. The installation cylinder 8 is of an internal hollow structure, and the positioning column 5 is slidably installed in the installation cylinder 8. The elastic piece 6 is a spring, one end of the spring is connected to the inner bottom surface of the mounting cylinder 8, the other end of the spring is connected to the bottom surface of the positioning column 5, and the spring is compressed when the positioning column 5 slides downwards, so that the upward movement trend of the positioning column 5 is provided.

Referring to fig. 2 and 3, the positioning column 5 is located on the movement path of the pressing roller 4, when the pressing roller 4 passes through the positioning column 5, the pressing roller 4 can press the positioning column 5 to slide into the mounting cylinder 8, the film is positioned by the positioning sheet 24 and the positioning column 5, and the positioning column 5 can move upwards after the pressing roller 4 and the positioning column 5 are separated from contact, so that the connection between the positioning sheet 24 and the positioning column 5 is stable. In order to facilitate the taking out of the label 1 from the placing groove 23, buckling grooves 11 communicated with the placing groove 23 are formed in the surface of the bottom plate 26, and two buckling grooves 11 are formed.

Referring to fig. 4 and 5, the fixed block 31 and the extension block 32 are each of an internal hollow structure, and the inside of the extension block 32 communicates with the inside of the fixed block 31. The fixed block 31 is of a cuboid structure, two hinging rods 12 are rotatably connected to the inner bottom surface of the fixed block 31, the hinging rods 12 are hinged to the central position of the inner bottom surface of the fixed block 31, and the hinging rods 12 can be hinged through pin shafts and the like. The lower surface of articulated pole 12 all rotates and installs a plurality of balls 13, and ball 13 evenly sets up along the length direction of articulated pole 12, and the hollow groove 14 has been seted up to the position that corresponds articulated pole 12 on the interior bottom surface of fixed block 31, and ball 13 can have the part to extend the bottom surface of fixed block 31 to make mount pad 3 at gliding in-process, ball 13 also can the butt in the surface of gluing layer 2, thereby improves the extrusion effect to gluing layer 2. In order to facilitate the installation of the balls 13, a downwardly extending boss is fixed to the lower surface of the hinge rod 12, and the balls 13 are rotated at the lower ends of the bosses such that the lowest position of the balls 13 and the lowest position of the pressing roller 4 are on the same plane.

Referring to fig. 5, a linkage member 15 is further installed between the pressing roller 4 and the hinge rod 12, and when the pressing roller 4 rotates, the hinge rod 12 can be driven to rotate by the linkage member 15, so that the tips enclosed by the two hinge rods 12 can face the direction in which the pressing roller 4 moves.

Referring to fig. 4 and 5, the link 15 includes a slide bar 151 and a rotating wheel 152, the slide bar 151 is slidably mounted at both ends of the fixed block 31, and a part of the slide bar 151 is located in the extension block 32 and a part is located in the fixed block 31. The sliding direction of the sliding rod 151 is parallel to the sliding direction of the mounting seat 3, a sliding groove can be formed in the bottom surfaces of the extension block 32 and the fixed block 31, a sliding bar which can slide in the sliding groove is fixed on the bottom surface of the sliding rod 151, and the sliding bar can be in a dovetail structure and the like, so that sliding connection of the sliding rod 151 is realized. Waist-shaped grooves 16 are formed in the side walls of the end, away from each other, of the hinge rod 12, and the waist-shaped grooves 16 penetrate through the upper side and the lower side of the hinge rod 12. The upper surface of one end of the sliding rod 151, which is close to the hinge rod 12, is fixed with a limiting column 17 extending upwards, and the limiting column 17 penetrates through the waist-shaped groove 16, so that the hinge rod 12 can be driven to rotate when the sliding rod 151 slides. The two ends of the press roller 4 are coaxially fixed with a rotating shaft 18, the rotating shaft 18 rotates on one side wall opposite to the extending block 32, and the end part extends inside the extending block 32. The rotating wheel 152 is coaxially fixed on the outer wall of the rotating shaft 18, a transmission structure is arranged between the rotating wheel 152 and the sliding rod 151, the rotating wheel 152 can be driven to synchronously rotate when the press roller 4 rotates, and the sliding rod 151 can be driven to slide through the rotating wheel 152 under the action of the transmission structure, so that the movement of the hinging rod 12 is realized.

Referring to fig. 6 and 7, the transmission structure includes driving rods 191 fixed to the outer circumferential surface of the rotating wheel 152, the driving rods 191 extending in the radial direction of the rotating wheel 152, and the driving rods 191 being uniformly provided in plurality in the circumferential direction of the rotating wheel 152. The transmission structure 19 further comprises a collision block 192 which is connected to the upper surface of the sliding rod 151 in a vertically sliding manner, a slot 25 for the collision block 192 to slide up and down is formed in the sliding rod 151, a power spring 20 is installed between the bottom surface of the slot 25 and the lower bottom surface of the collision block 192, and the upper end of the collision block 192 can be driven to extend out of the upper surface of the sliding rod 151 under the action of the elasticity of the power spring 20. The upper end of the abutting block 192 is provided with an inclined surface 1922, the inclined surface 1922 is inclined downward toward the direction close to the hinge rod 12, and one side of the abutting block 192 away from the hinge rod 12 is an abutting surface 1921. A return spring 21 is mounted between one end of the sliding rod 151, which is far away from the rotating rod, and the inner wall of the fixed block 31, and when the return spring 21 is in a natural state, the tip enclosed by the two hinging rods 12 faces the direction away from the compression roller 4.

Referring to fig. 4 and 6, the mounting base 3 is in an initial state when being positioned on one side of the bottom plate 26 away from the buckling groove 11, and the pressing roller 4 drives the rotating wheel 152 to rotate when the mounting base 3 slides towards the buckling groove 11, the driving rod 191 is abutted against the abutting surface 1921 of the abutting block 192 so as to drive the sliding rod 151 to slide towards the direction away from the pressing roller 4, the reset spring 21 is compressed, and at the moment, the tip enclosed by the hinging rod 12 faces towards the direction of the pressing roller 4. When the mounting seat 3 slides in the direction away from the buckling groove 11, the reset spring 21 drives the sliding rod 151 to slide in the direction close to the compression roller 4, and the end of the driving rod 191 abuts against the inclined surface 1922 when the rotating wheel 152 rotates, so that the driving rod 191 does not influence the sliding of the sliding rod 151, and the tip enclosed by the hinging rod 12 faces the direction away from the compression roller 4.

The implementation principle of the label rubberizing device provided by the embodiment of the application is as follows: after placing sign 1 in standing groove 23 to with gluing layer 2 attached to sign 1 upper surface, fix a position gluing layer 2 through reference column 5, then make a round trip to promote mount pad 3 slip, can make the ball 13 extrusion gluing layer 2's of compression roller 4 surface, improve the joint strength between gluing layer 2 and the sign 1.

Example 2:

the embodiment discloses a rubberizing method of a label, which uses the rubberizing device in the embodiment 1 and comprises the following steps of;

s1, sticking a positioning sheet 24 on the surface of a film on the surface of an adhesive layer, and then placing the label 1 in a placing groove 23 of a bottom plate 26 with the bottom surface of the label 1 facing upwards;

s2, adhering an adhesive layer to the bottom surface of the label 1, and enabling the positioning column 5 to penetrate through the positioning sheet 24;

s3, pushing the mounting seat 3 to slide on the bottom plate 26, and driving the press roller 4 to press the surface of the viscose layer.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (5)

1. The utility model provides a sign rubberizing device which characterized in that: the automatic positioning device comprises a bottom plate (26), wherein a placing groove (23) for placing a label (1) is formed in the bottom plate (26), an installation seat (3) is slidably arranged on the bottom plate (26), a press roller (4) is rotatably arranged on the installation seat (3), a positioning column (5) is slidably arranged on the bottom plate (26) up and down, an elastic piece (6) for driving the positioning column (5) to move upwards is arranged on the bottom plate (26) so that the positioning column (5) is provided with an elastic piece extending out of the surface of the bottom plate (26), and the placing groove (23) and the positioning column (5) are both positioned on a moving path of the press roller (4);

the mounting seat (3) comprises a fixed block (31) and extension blocks (32) arranged on the side walls of two ends of the fixed block (31), and the compression roller (4) rotates between the two extension blocks (32);

the fixing block (31) is of a hollow structure, a hinging rod (12) is rotatably arranged at the central position of the inner bottom surface of the fixing block (31), two hinging rods (12) are arranged and extend towards the two ends of the fixing block (31) respectively, a plurality of balls (13) are rotatably arranged on the lower surface of the hinging rod (12), a hollowed-out groove (14) for the balls (13) to extend out of the lower surface of the fixing block (31) is formed in the bottom surface of the fixing block (31), a linkage piece (15) is arranged between the pressing roller (4) and the hinging rod (12), and when the mounting seat (3) slides, the linkage piece (15) is used for driving the hinging rod (12) to move so that the tip structure enclosed by the hinging rod (12) faces the sliding direction of the mounting seat (3);

the extension block (32) is of a hollow structure and is communicated with the inside of the fixed block (31), the linkage piece (15) comprises sliding rods (151) which are arranged at two ends of the fixed block (31) in a sliding mode, the sliding directions of the sliding rods (151) are parallel to the sliding directions of the mounting seats (3), waist-shaped grooves (16) which extend along the length directions of the hinging rods (12) are formed in the hinging rods (12), limiting columns (17) which extend upwards and penetrate through the waist-shaped grooves (16) are arranged on the sliding rods (151), rotating shafts (18) are arranged at two ends of the press roll (4), the linkage piece (15) further comprises rotating wheels (152) which are coaxially arranged on the outer walls of the rotating shafts (18), transmission structures are arranged between the rotating wheels (152) and the sliding rods (151), and the sliding rods (151) can be driven to slide through the transmission structures when the press roll (4) rotates;

the transmission structure is including setting up in actuating lever (191) of rotating wheel (152) outer wall, actuating lever (191) evenly are provided with a plurality ofly along the circumference of rotating wheel (152), the transmission structure is still including sliding set up in conflict piece (192) of slide bar (151) upper surface, conflict piece (192) are including butt face (1921) and inclined plane (1922) towards rotating wheel (152), inclined plane (1922) are to keeping away from the direction slope downward setting of rotating wheel (152), slide bar (151) are provided with power spring (20) that are used for providing conflict piece (192) have upward motion trend, install reset spring (21) between the inner wall of one end and fixed block (31) of rotating lever are kept away from to slide bar (151), and reset spring (21) are in the direction that the tip that two articulated bars (12) enclose was facing away from compression roller (4) when natural state.

2. The signage rubberizing apparatus of claim 1 wherein: the mounting groove (7) is formed in the bottom plate (26), the mounting groove (7) is internally provided with the mounting cylinder (8) with the hollow inside, the bottom surface of the mounting groove (7) is provided with the yielding groove (9) for accommodating the mounting cylinder (8), and the positioning column (5) slides up and down in the mounting cylinder (8) and the elastic piece (6) is arranged between the inner bottom surface of the mounting cylinder (8) and the lower bottom surface of the positioning column (5).

3. A signage rubberizing apparatus as defined in any one of claims 2 wherein: the base plate (26) is provided with sliding rails (10) at two side positions of the placing groove (23), and the mounting seat (3) is connected to the sliding rails (10) in a sliding manner.

4. A signage rubberizing apparatus as defined in claim 3 wherein: the upper surface of the bottom plate (26) is provided with a buckling groove (11) communicated with the placing groove (23).

5. A method for rubberizing a label, characterized by: use of a rubberizing device according to any one of claims 1 to 4, comprising the steps of;

s1, sticking a locating piece (24) on the surface of a film on the surface of an adhesive layer, then placing the label (1) in a placing groove (23) of a bottom plate (26), and enabling the bottom surface of the label (1) to face upwards;

s2, adhering the adhesive layer to the bottom surface of the label (1) and enabling the positioning column (5) to penetrate through the positioning sheet (24);

s3, pushing the mounting seat (3) to slide on the bottom plate (26), and driving the press roller (4) to extrude on the surface of the viscose layer.